Analyze your build with APK Analyzer

Android Studio includes an APK Analyzer that provides immediate insight into the
composition of your APK after the build process completes. Using the APK
Analyzer can reduce the time you spend debugging issues with DEX files and
resources within your app, and help reduce your APK size. It's also available
from the command line with
apkanalyzer.

With the APK Analyzer, you can accomplish the following:

View the absolute and relative size of files in the APK, such as the DEX and
Android resource files.

Understand the composition of DEX files.

Quickly view the final versions of files in the APK, such as the
AndroidManifest.xml file.

Perform a side-by-side comparison of two APKs.

There are three ways to access the APK Analyzer when a project is open:

Drag an APK into the Editor window of Android Studio.

Switch to the Project perspective in the Project window and then
double-click the APK in the default build/output/apks/ directory.

Select Build > Analyze APK in the menu bar and then select your APK.

Important: When analyzing debug builds, use the APK created by selecting
Build > Build APK or from the gradle commands. Clicking Run in
the toolbar results in Instant
Run-enabled APKs, which shouldn't be used with the APK Analyzer
for optimization tasks because they
are for development use only and load most resources dynamically. You can identify
an Instant Run APK by the presence of an instant-run.zip file
embedded within the APK.

View file and size information

APKs are files that follow the ZIP file format. The APK Analyzer displays each
file or folder as an entity with expansion functionality available to navigate
into folders. The hierarchy of the entities mirrors the structure of the files
and folders in the APK file.

APK Analyzer shows raw file size and download file size values for each entity,
as shown in figure 1. Raw File Size represents the unzipped size of the
entity on disk while Download Size represents the estimated compressed size
of the entity as it would be delivered by Google Play. The % of Total Download
Size indicates the percentage of the APK's total download size the entity
represents.

Figure 1. File sizes in the APK Analyzer

View the AndroidManifest.xml

If your project includes multiple AndroidManifest.xml files (such as for
product flavors) or includes libraries that also provide a manifest file, they
are merged into a single file in your APK. This manifest file
is normally a binary file within the APK, but when
selected in the APK Analyzer, the XML form of this entity is reconstructed and
presented. This viewer allows you to understand any changes that might have been
made to your app during the build. For example, you can see how the
AndroidManifest.xml file from a library your application depends on was merged
into the final AndroidManifest.xml file.

Additionally, this viewer provides some lint capabilities, and warnings or
errors appear in the top-right corner. Figure 2 shows an error being reported
for the selected manifest file.

Figure 2. An error icon appears in the right margin
for the selected manifest file

View DEX files

APK Analyzer's DEX file viewer gives you immediate access to the underlying
information in the DEX file(s) in your app. Class, package, total reference, and
declaration counts are provided within the viewer, which can assist in deciding
whether to use multidex or how to remove
dependencies to get below the 64K DEX limit.

Figure 3 depicts a medium-size app that is below the 64k DEX limit. Each package,
class, and method inside the DEX file has counts listed in the Defined Method
and Referenced Methods columns. The Referenced Methods column counts all
methods that are referenced by the DEX file. This typically includes methods
defined in your code, dependency libraries, and methods defined in standard Java
and Android packages that the code uses—these are the methods counted toward
the 64k method limit in each DEX file. The Defined Methods column counts
only the methods that are defined in one of your DEX files, so this number is a
subset of Referenced Methods. Note that when you package a dependency in
your APK, the methods defined in the dependency add to both method counts. Also
note that minification and
Proguard shrinking can each also considerably
change the contents of a DEX file after source code is compiled.

Figure 3. A medium-sized app

Filter the DEX file tree view

Just above the Class list, APK Analyzer provides filters for
viewing the contents of the selected DEX file.

Figure 4. DEX filters set to display fields and
methods for BuildConfig

To use the filters to display all methods and fields inside a class,
do the following:

In the File list, select the classes.dex file.

In the Class list, navigate to and select a class.

Expand the class you selected.

Toggle Show fields
to show or hide the class fields.

Toggle Show methods
to show or hide the class methods.

Toggle Show all referenced methods or fields
to show or hide referenced packages, classes, methods, and fields. In the
tree view, italicized nodes are references that do not have a definition in
the selected DEX file.

A DEX file can reference methods and fields that are defined in a different
a file. For example System.out.println() is a reference
to the println() method in the Android framework.

Load Proguard mappings

Next to the filtering icons are the
Proguard mapping icons. They are
grayed out until you load a set of Proguard mapping files that add functionality
to the DEX viewer, such as deobfuscating names (mapping.txt),
showing nodes that were removed (usage.txt), and indicating nodes
that cannot be removed (seeds.txt).
The Proguard mapping files apply to APKs that were built with Proguard enabled,
and must come from the same build that produced the APK.

Figure 5. Load Proguard mappings

To load the Proguard mapping files, do the following:

Click Load Proguard Mappings.

Navigate to the project folder that contains the mapping files and load all
of the files, any combination of the files, or the folder that contains the
files.

The mapping files are normally in
project/app/build/outputs/mappings/release/.
The file picker defaults to the release folder if it detects this
project structure. First, the file picker checks for filenames that exactly
match mapping.txt,
seeds.txt, and usage.txt. Next, the file picker checks for filenames that
contain the text mapping, usage, or seeds somewhere and end with .txt.
For example release-seeds-1.10.15.txt is a match.

The following list describes the mapping files:

seeds.txt: Nodes that the Proguard configuration prevents from being removed
during shrinking are shown in bold.

mapping.txt: Enables Deobfuscate names so you can restore the original names of nodes that
were obfuscated by Proguard. For example, you can restore obfuscated node
names like a, b, c to MyClass, MainActivity, and myMethod().

usage.txt: Enables Show removed nodes so you can show classes, methods, and fields that were
removed by Proguard during shrinking. The restored nodes are shown in
strikethrough.

Show bytecode, find usages, and generate Keep rule

The nodes in the Class list view have a context menu with the following
options that
let you see the bytecode, find usages, and display a dialog that shows Proguard
rules that you can copy and paste for the selected node. Right-click any
node in the Class list view to display its context menu.

Show bytecode: Decompiles the selected class, method, or field
and displays the smali (not Java code) bytecode representation in a dialog, as
follows:

Figure 6. DEX byte code for init method

Find usages: Shows which other parts of the DEX code
have references to the selected class or method (figure 7).
If you have seeds.txt loaded,
nodes displayed in bold indicate that the Proguard configuration prevents them
from being removed during shrinking:

Figure 7. References to MyClass

Generate Proguard Keep rule: Shows Proguard rules that you can copy and
paste into your project Proguard configuration file to keep a given package,
class, method, or field from being removed during the Proguard shrinking phase
(figure 8).
For more information, see
Customize which code to keep.

Figure 8. Proguard rules that you can copy from
the dialog into your Proguard configuration file

View code and resource entities

Various build tasks change the final entities in an APK file. For example,
Proguard shrinking rules can alter your final code, and image resources
can be overridden by resources in a
product flavor.
Viewing the final version of your files is easy with the APK Analyzer: Click
the entity and a preview for the text or image entity appears below, as shown
in figure 9.

Figure 9. A preview of the final image resource

The APK Analyzer can also display various text and binary files.
For instance, the resources.arsc entity viewer allows you to see the
configuration-specific values such as language translations for a
string resource. In figure 10, you can see the translations for each string
resource.

Figure 10. A preview of translated string resources

Compare APK files

The APK Analyzer can compare the size of the entities in two different APK
files. This is helpful when you need to understand why your app increased in
size compared to a previous release. Before you publish an updated APK, do the
following:

Load the version of the APK you are about to publish into the APK Analyzer.

In the top-right corner of APK Analyzer, click Compare With.

In the selection dialog, find the APK that was last published to your users
and click OK.

A dialog similar to the one in figure 11 appears to help you assess the
impact the update might have on users.

Figure 11 shows the difference between a particular app's debug and release
builds. Different build options are in use between these build types, which
alter the underlying entities differently.

Figure 11. The difference between a debug
and release APK

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